Environment modelling of Great Barrier Reef habitats using Autonomous Transect Surveying. This project has as its goal the development of algorithms and methods capable of modeling unstructured, reef environments using data collected by an autonomous robotic system capable of surveying the Great Barrier Reef. The Australian Centre for Field Robotics (ACFR) currently has a small research Umanned Underwater Vehicle capable of undertaking such survey work. Under the proposed project, this vehicle ....Environment modelling of Great Barrier Reef habitats using Autonomous Transect Surveying. This project has as its goal the development of algorithms and methods capable of modeling unstructured, reef environments using data collected by an autonomous robotic system capable of surveying the Great Barrier Reef. The Australian Centre for Field Robotics (ACFR) currently has a small research Umanned Underwater Vehicle capable of undertaking such survey work. Under the proposed project, this vehicle will be equipped with appropriate sensors (such as vision systems, sonar, depth and temperature sensors). The proposed grant will support an APA (I) whose aim will be the construction of comprehensive models of the state of the reef over which the vehicle will operate.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100204
Funder
Australian Research Council
Funding Amount
$125,000.00
Summary
A laser optical plankton counter for laboratory and in-situ size distributions of zooplankton, to assess the basis and outcomes of changing ecosystems. The researchers will integrate studies of zooplankton biodiversity from the tropics to the Southern Ocean with an optical plankton counter to quickly measure zooplankton size and approximate shape. This new technology, together with a resurgence in collaborative marine science through the Integrated Marine Observing System and the Sydney Institut ....A laser optical plankton counter for laboratory and in-situ size distributions of zooplankton, to assess the basis and outcomes of changing ecosystems. The researchers will integrate studies of zooplankton biodiversity from the tropics to the Southern Ocean with an optical plankton counter to quickly measure zooplankton size and approximate shape. This new technology, together with a resurgence in collaborative marine science through the Integrated Marine Observing System and the Sydney Institute of Marine Science, will enable Australian researchers to understand changes in the plankton in freshwater or in estuaries, as well as in the East Australian Current. This current has already strengthened and is predicted to be the area of greatest warming in the Southern Hemisphere. The response of plankton communities to these changes will have profound effects on Australian fisheries and livelihoods.Read moreRead less
Hydrodynamics of Fringing Reef Systems. Ningaloo Marine Park is part of the National Representative System of Marine Protected Areas. Coral reefs are in a state of decline worldwide, yet Ningaloo Reef has remained in a relatively pristine state. However, its close proximity to land makes it particularly vulnerable to human activities, which are forecast to significantly grow in the near future. Results from this project will advance our ability to predict circulation on reefs and other similar c ....Hydrodynamics of Fringing Reef Systems. Ningaloo Marine Park is part of the National Representative System of Marine Protected Areas. Coral reefs are in a state of decline worldwide, yet Ningaloo Reef has remained in a relatively pristine state. However, its close proximity to land makes it particularly vulnerable to human activities, which are forecast to significantly grow in the near future. Results from this project will advance our ability to predict circulation on reefs and other similar coastal systems. This will provide insight into various ecological processes that are linked to hydrodynamics (e.g. recruitment), and will provide a foundation for conducting risk analysis of processes that threaten the integrity of nearshore environments (e.g. contaminant spills).Read moreRead less
High-resolution multispectral underwater imaging for coral reef mapping and characterization. This project will enable improved mapping and monitoring from underwater vehicles and divers. We expect to aid the sustainable use of Australia's biodiversity in the specific case of corals reefs by increasing the quality of survey data and the extent, precision and repeatability of surveys. This project will develop technologies to assist monitoring the Great Barrier Reef and determining effects of man ....High-resolution multispectral underwater imaging for coral reef mapping and characterization. This project will enable improved mapping and monitoring from underwater vehicles and divers. We expect to aid the sustainable use of Australia's biodiversity in the specific case of corals reefs by increasing the quality of survey data and the extent, precision and repeatability of surveys. This project will develop technologies to assist monitoring the Great Barrier Reef and determining effects of management strategies. Since these developments focus on imaging and mapping the ocean floors they could also be of use in developing deep earth resources.
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Ocean currents and genetic connectedness in a complex archipelago. To what extent are marine coastal communities ?open?, i.e. how often do the oceans carry larvae far from their point of spawning, and what influence does such ocean transport have on the spread of genetic information? These are some of the most fundamental questions of biological oceanography; the project will provide new answers by using an extremely detailed genetic data set from the Houtman Abrolhos Islands off Western Austra ....Ocean currents and genetic connectedness in a complex archipelago. To what extent are marine coastal communities ?open?, i.e. how often do the oceans carry larvae far from their point of spawning, and what influence does such ocean transport have on the spread of genetic information? These are some of the most fundamental questions of biological oceanography; the project will provide new answers by using an extremely detailed genetic data set from the Houtman Abrolhos Islands off Western Australian together with an advanced numerical ocean model especially suited to that environment and developed in Australia.Read moreRead less
Prediction of fishery year-class-strengths from larval growth and zooplankton size structure. The abundance of young fish produced in the ocean each year is highly variable, and banks or managers need to prepare for these future changes when the fish reach market size. Therefore many nations conduct special trawl surveys of juvenile fish each year, but these are expensive, particularly when Australia has over 200 commercially harvested fish. We propose that the growth of fish larvae, recorded as ....Prediction of fishery year-class-strengths from larval growth and zooplankton size structure. The abundance of young fish produced in the ocean each year is highly variable, and banks or managers need to prepare for these future changes when the fish reach market size. Therefore many nations conduct special trawl surveys of juvenile fish each year, but these are expensive, particularly when Australia has over 200 commercially harvested fish. We propose that the growth of fish larvae, recorded as daily growth rings within the earstone of undersized fish from the fishery, could predict future abundance. We will link growth to a cost-effective assessment of their zooplankton prey in spawning areas that lead to Australia's South East Trawl region.Read moreRead less
Three-dimensional mapping and bio-physical coupling in the plankton microenvironment. The fate of carbon in the marine environment, and potential modification of global climate, is driven by organisms ranging in size from 0.1 to 100 µm interacting at mm to cm scales. This research will provide the first high-resolution 3D measurements of distributions, diversity and dynamics of these key organisms. Australia provides the unique opportunity to study these microscale patterns and processes in arch ....Three-dimensional mapping and bio-physical coupling in the plankton microenvironment. The fate of carbon in the marine environment, and potential modification of global climate, is driven by organisms ranging in size from 0.1 to 100 µm interacting at mm to cm scales. This research will provide the first high-resolution 3D measurements of distributions, diversity and dynamics of these key organisms. Australia provides the unique opportunity to study these microscale patterns and processes in archetypical examples of environments representative of the world's most significant marine ecosystems. These results will maintain Australia at the cutting-edge of marine environmental science, and provide the first application of novel sampling, analysis and modelling techiques to environments of the Australian economic exclusion zone.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100041
Funder
Australian Research Council
Funding Amount
$100,000.00
Summary
A high-resolution isotope facility for low cost analysis of water, plant, and soil/sediment samples to understand environmental change. The most significant environmental challenges facing Australia include ensuring sustainable management of our water resources and conservation of both terrestrial and marine biodiversity, particularly in the face of our changing climate and land-use. The new instruments will accelerate progress across a number of projects aimed at understanding the developme ....A high-resolution isotope facility for low cost analysis of water, plant, and soil/sediment samples to understand environmental change. The most significant environmental challenges facing Australia include ensuring sustainable management of our water resources and conservation of both terrestrial and marine biodiversity, particularly in the face of our changing climate and land-use. The new instruments will accelerate progress across a number of projects aimed at understanding the development of groundwater resources, the relative dependency of ecosystems on groundwater versus soil and surface water, and an assessment of the likely impacts of altered hydrology, especially dewatering and salinisation, on ecosystems. In addition, they will also be used to extend our knowledge of climate variability in the recent past and increase understanding of critical marine resources.Read moreRead less
Enhancing Seagrass Restoration : Improving Hessian Durability in Marine Environments. The establishment of an environmentally benign method for restoration of seagrass beds (which provide habitat for a wide range of commercially, recreationally and ecologically important marine species) will enhance Australia's capability of maintaining its coastal marine environment in support of its fishing and ecotourism industries. Furthermore, it will ultimately improve our capacity to manage the environmen ....Enhancing Seagrass Restoration : Improving Hessian Durability in Marine Environments. The establishment of an environmentally benign method for restoration of seagrass beds (which provide habitat for a wide range of commercially, recreationally and ecologically important marine species) will enhance Australia's capability of maintaining its coastal marine environment in support of its fishing and ecotourism industries. Furthermore, it will ultimately improve our capacity to manage the environmental impact of human development on our natural resources. If successful, the knowledge gained of the dynamics of marine biofilms on differentially coated natural fibers could facilitate broader application of methods used in environmental restoration and marine based industries, and foreshadow new applications.Read moreRead less